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#include "holo.h" |
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#include "view.h" |
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#include "random.h" |
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#ifndef DEPS |
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#define DEPS 0.02 /* depth epsilon */ |
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int d; |
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register int4 i, p; |
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|
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if (n <= 0) |
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if (n <= 0) { |
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#ifdef DEBUG |
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error(WARNING, "neighborless sample in kill_occl"); |
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#endif |
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return(1); |
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} |
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p = v*hres + h; |
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forequad[0][0] = forequad[0][1] = forequad[1][0] = forequad[1][1] = 0; |
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for (i = n; i--; ) { |
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int |
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grow_samp(h, v, nl, n) /* grow sample point appropriately */ |
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smooth_samp(h, v, nl, n) /* grow sample point smoothly */ |
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int h, v; |
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register short nl[NNEIGH][2]; |
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int n; |
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int dis[NNEIGH], ndis; |
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COLOR mykern[MAXRAD2]; |
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int4 maxr2; |
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double w, d; |
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double d; |
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register int4 p, r2; |
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int i, r, maxr, h2, v2; |
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} |
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if (i >= 0) continue; /* outside edge */ |
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addcolor(mypixel[v2*hres+h2], mykern[r2]); |
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myweight[v2*hres+h2] += pixWeight[r2] * |
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myweight[v*hres+h]; |
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myweight[v2*hres+h2] += pixWeight[r2] * myweight[p]; |
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} |
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} |
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return(1); |
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} |
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pixFlush() /* done with beams -- flush pixel values */ |
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int |
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random_samp(h, v, nl, n) /* grow sample point noisily */ |
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int h, v; |
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register short nl[NNEIGH][2]; |
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int n; |
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{ |
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float nwt[NNEIGH]; |
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int4 maxr2; |
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register int4 p, r2; |
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register int i; |
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int maxr, h2, v2; |
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COLOR ctmp; |
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|
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if (n <= 0) |
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return(1); |
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p = v*hres + h; /* compute kernel radius */ |
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maxr2 = (h-nl[n-1][0])*(h-nl[n-1][0]) + (v-nl[n-1][1])*(v-nl[n-1][1]); |
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DCHECK(maxr2>=MAXRAD2, CONSISTENCY, "out of range neighbor"); |
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maxr = isqrt(maxr2); |
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/* compute neighbor weights */ |
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for (i = n; i--; ) { |
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r2 = (nl[i][0]-h)*(nl[i][0]-h) + (nl[i][1]-v)*(nl[i][1]-v); |
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nwt[i] = pixWeight[r2]; |
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} |
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/* sample kernel */ |
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for (v2 = v-maxr; v2 <= v+maxr; v2++) { |
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if (v2 < 0) v2 = 0; |
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else if (v2 >= vres) break; |
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for (h2 = h-maxr; h2 <= h+maxr; h2++) { |
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if (h2 < 0) h2 = 0; |
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else if (h2 >= hres) break; |
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r2 = (h2-h)*(h2-h) + (v2-v)*(v2-v); |
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if (r2 > maxr2) continue; |
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if (CHK4(pixFlags, v2*hres+h2)) |
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continue; /* occupied */ |
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if (frandom() > pixWeight[r2]) { |
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/* pick neighbor instead */ |
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i = random() % n; |
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r2 = nl[i][1]*hres + nl[i][0]; |
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copycolor(ctmp, mypixel[r2]); |
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scalecolor(ctmp, nwt[i]); |
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addcolor(mypixel[v2*hres+h2], ctmp); |
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myweight[v2*hres+h2] += nwt[i] * myweight[r2]; |
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continue; |
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} |
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addcolor(mypixel[v2*hres+h2], mypixel[p]); |
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myweight[v2*hres+h2] += myweight[p]; |
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} |
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} |
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return(1); |
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} |
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|
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|
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pixFinish(ransamp) /* done with beams -- compute pixel values */ |
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int ransamp; |
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{ |
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if (pixWeight[0] <= FTINY) |
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init_wfunc(); /* initialize weighting function */ |
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reset_flags(); /* set occupancy flags */ |
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meet_neighbors(kill_occl); /* eliminate occlusion errors */ |
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reset_flags(); /* reset occupancy flags */ |
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if (pixWeight[0] <= FTINY) { /* initialize weighting function */ |
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register int i, j, r2; |
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double d; |
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for (i = 1; i <= MAXRAD; i++) |
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for (j = 0; j <= i; j++) { |
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r2 = i*i + j*j; |
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if (r2 >= MAXRAD2) break; |
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d = sqrt((double)r2); |
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pixWeight[r2] = G0NORM/d; |
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isqrttab[r2] = d + 0.99; |
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} |
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pixWeight[0] = 1.; |
220 |
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isqrttab[0] = 0; |
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} |
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meet_neighbors(grow_samp); /* grow valid samples over image */ |
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> |
if (ransamp) /* spread samples over image */ |
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meet_neighbors(random_samp); |
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else |
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meet_neighbors(smooth_samp); |
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free((char *)pixFlags); /* free pixel flags */ |
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pixFlags = NULL; |
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} |
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reset_flags() /* allocate/set/reset occupancy flags */ |
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{ |
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< |
register int p; |
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> |
register int4 p; |
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|
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if (pixFlags == NULL) { |
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pixFlags = (int4 *)calloc(FL4NELS(hres*vres), sizeof(int4)); |
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for (p = hres*vres; p--; ) |
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if (myweight[p] > FTINY) |
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SET4(pixFlags, p); |
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} |
290 |
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|
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|
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init_wfunc() /* initialize weighting function */ |
293 |
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{ |
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register int4 r2; |
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register double d; |
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|
297 |
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for (r2 = MAXRAD2; --r2; ) { |
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d = sqrt((double)r2); |
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pixWeight[r2] = G0NORM/d; |
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isqrttab[r2] = d + 0.99; |
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} |
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pixWeight[0] = 1.; |
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isqrttab[0] = 0; |
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} |
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